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preproce.c
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preproce.c
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/* Copyright (c) 1994 Sun Wu, Udi Manber, Burra Gopal. All Rights Reserved. */
/* substitute metachar with special symbol */
/* if regular expression, then set flag REGEX */
/* if REGEX and MULTIPAT then report error message, */
/* -w only for single word pattern. If WORDBOUND & MULTIWORD error */
/* process start of line, endof line symbol, */
/* process -w WORDBOUND option, append special symbol at begin&end of */
/* process -d option before this routine */
/* the delimiter pattern is in D_pattern (need to end with '; ') */
/* if '-t' (suggestion: how about -B) the pattern is passed to sgrep */
/* and doesn't go here */
/* in that case, -d is ignored? or not necessary */
/* upon return, Pattern contains the pattern to be processed by maskgen */
/* D_pattern contains transformed D_pattern */
#include "agrep.h"
/* TG 29.04.04 */
#include <errno.h>
extern int PAT_FILE, PAT_BUFFER;
extern ParseTree *AParse;
extern int WHOLELINE, REGEX, FASTREGEX, RE_ERR, DELIMITER, TAIL, WORDBOUND;
extern int HEAD;
extern CHAR Progname[];
extern int D_length, tc_D_length;
extern CHAR tc_D_pattern[MaxDelimit * 2];
extern int table[WORD][WORD];
extern int agrep_initialfd;
extern int EXITONERROR;
extern int errno;
extern int multifd;
extern char *multibuf;
extern int multilen;
extern int anum_terminals;
extern ParseTree aterminals[MAXNUM_PAT];
extern char FREQ_FILE[MAX_LINE_LEN], HASH_FILE[MAX_LINE_LEN], STRING_FILE[MAX_LINE_LEN]; /* interfacing with tcompress */
extern int AComplexBoolean;
#ifdef _WIN32
int asplit_pattern(); /* asplit.c */
int asplit_terminal(); /* asplit.c */
int init(); /* follow.c */
void destroy_tree(); /* putils.c */
int quick_tcompress(); /* preproce.c */
#endif
int
preprocess(D_pattern, Pattern) /* need two parameters */
CHAR D_pattern[], Pattern[];
{
CHAR temp[Maxline], *r_pat, *old_pat; /* r_pat for r.e. */
CHAR old_D_pat[MaxDelimit*2];
int i, j=0, rp=0, m, t=0, num_pos, ANDON = 0;
int d_end ;
int IN_RANGE=0;
int ret1, ret2;
#if DEBUG
fprintf(stderr, "preprocess: m=%d, pat=%s, PAT_FILE=%d, PAT_BUFFER=%d\n", strlen(Pattern), Pattern, PAT_FILE, PAT_BUFFER);
#endif
if ((m = strlen(Pattern)) <= 0) return 0;
if (PAT_FILE || PAT_BUFFER) return 0;
REGEX = OFF;
FASTREGEX = OFF;
old_pat = Pattern; /* to remember the starting position */
/* Check if pattern is a concatenation of ands OR ors of simple patterns */
multibuf = (char *)malloc(m * 2 + 2); /* worst case: a,a,a,a,a,a */
if (multibuf == NULL) goto normal_processing;
/* if (WORDBOUND) goto normal_processing; */
multilen = 0;
AParse = 0;
ret1 = ret2 = 0;
if (((ret1 = asplit_pattern(Pattern, m, aterminals, &anum_terminals, &AParse)) <= 0) || /* can change the pattern if simple boolean with {} */
((ret2 = asplit_terminal(0, anum_terminals, multibuf, &multilen)) <= 0) ||
((ret2 == 1) && !(aterminals[0].op & NOTPAT))) { /* must do normal processing */
if (AComplexBoolean && (AParse != NULL)) destroy_tree(AParse); /* so that direct exec invocations don't use AParse by mistake! */
#if DEBUG
fprintf(stderr, "preprocess: split_pat = %d, split_term = %d, #terms = %d\n", ret1, ret2, anum_terminals);
#endif /*DEBUG*/
/*
if (ret2 == 1) {
strcpy(Pattern, aterminals[0].data.leaf.value);
m = strlen(Pattern);
}
*/
m = strlen(Pattern);
AParse = 0;
free(multibuf);
multibuf = NULL;
multilen = 0;
goto normal_processing;
}
/* This is quick processing */
if (AParse != 0) { /* successfully converted to ANDPAT/ORPAT */
PAT_BUFFER = 1;
/* printf("preprocess(): converted= %d, patterns= %s", AParse, multibuf); */
/* Now I have to process the delimiter if any */
if (DELIMITER) {
/* D_pattern is "<PAT>; ", D_length is 1 + length of string PAT: see agrep.c/'d' */
preprocess_delimiter(D_pattern+1, D_length - 1, D_pattern, &D_length);
/* D_pattern is the exact stuff we want to match, D_length is its strlen */
if ((tc_D_length = quick_tcompress(FREQ_FILE, HASH_FILE, D_pattern, D_length, tc_D_pattern, MaxDelimit*2, TC_EASYSEARCH)) <= 0) {
strcpy(tc_D_pattern, D_pattern);
tc_D_length = D_length;
}
/* printf("mgrep's delim=%s,%d tc_delim=%s,%d\n", D_pattern, D_length, tc_D_pattern, tc_D_length); */
}
return 0;
}
/* else either unknown character, one simple pattern or none at all */
normal_processing:
for(i=0; i< m; i++) {
if(Pattern[i] == '\\') i++;
else if(Pattern[i] == '|' || Pattern[i] == '*') REGEX = ON;
}
r_pat = (CHAR *) malloc(strlen(Pattern)+2*strlen(D_pattern) + 8); /* bug-report, From: Chris Dalton <[email protected]> */
strcpy(temp, D_pattern);
d_end = t = strlen(temp); /* size of D_pattern, including '; ' */
if (WHOLELINE) {
temp[t++] = LANGLE;
temp[t++] = NNLINE;
temp[t++] = RANGLE;
temp[t] = '\0';
strcat(temp, Pattern);
m = strlen(temp);
temp[m++] = LANGLE;
temp[m++] = '\n';
temp[m++] = RANGLE;
temp[m] = '\0';
}
else {
if (WORDBOUND) {
temp[t++] = LANGLE;
temp[t++] = WORDB;
temp[t++] = RANGLE;
temp[t] = '\0';
}
strcat(temp, Pattern);
m = strlen(temp);
if (WORDBOUND) {
temp[m++] = LANGLE;
temp[m++] = WORDB;
temp[m++] = RANGLE;
}
temp[m] = '\0';
}
/* now temp contains augmented pattern , m it's size */
D_length = 0;
for (i=0, j=0; i< d_end-2; i++) {
switch(temp[i])
{
case '\\' :
i++;
Pattern[j++] = temp[i];
old_D_pat[D_length++] = temp[i];
break;
case '<' :
Pattern[j++] = LANGLE;
break;
case '>' :
Pattern[j++] = RANGLE;
break;
case '^' :
Pattern[j++] = '\n';
old_D_pat[D_length++] = temp[i];
break;
case '$' :
Pattern[j++] = '\n';
old_D_pat[D_length++] = temp[i];
break;
default :
Pattern[j++] = temp[i];
old_D_pat[D_length++] = temp[i];
break;
}
}
if(D_length > MAXDELIM) {
fprintf(stderr, "%s: delimiter pattern too long (has > %d chars)\n", Progname, MAXDELIM);
free(r_pat);
if (!EXITONERROR) {
errno = AGREP_ERROR;
return -1;
}
else exit(2);
}
Pattern[j++] = ANDPAT;
old_D_pat[D_length] = '\0';
strcpy(D_pattern, old_D_pat);
D_length++;
/* Pattern[j++] = ' '; */
Pattern[j] = '\0';
rp = 0;
if(REGEX) {
r_pat[rp++] = '.'; /* if REGEX: always append '.' in front */
r_pat[rp++] = '(';
Pattern[j++] = NOCARE;
HEAD = ON;
}
for (i=d_end; i < m ; i++)
{
switch(temp[i])
{
case '\\':
i++;
Pattern[j++] = temp[i];
r_pat[rp++] = 'o'; /* the symbol doesn't matter */
break;
case '#':
FASTREGEX = ON;
if(REGEX) {
Pattern[j++] = NOCARE;
r_pat[rp++] = '.';
r_pat[rp++] = '*';
break;
}
Pattern[j++] = WILDCD;
break;
case '(':
Pattern[j++] = LPARENT;
r_pat[rp++] = '(';
break;
case ')':
Pattern[j++] = RPARENT;
r_pat[rp++] = ')';
break;
case '[':
Pattern[j++] = LRANGE;
r_pat[rp++] = '[';
IN_RANGE = ON;
break;
case ']':
Pattern[j++] = RRANGE;
r_pat[rp++] = ']';
IN_RANGE = OFF;
break;
case '<':
Pattern[j++] = LANGLE;
break;
case '>':
Pattern[j++] = RANGLE;
break;
case '^':
if (temp[i-1] == '[') Pattern[j++] = NOTSYM;
else Pattern[j++] = '\n';
r_pat[rp++] = '^';
break;
case '$':
Pattern[j++] = '\n';
r_pat[rp++] = '$';
break;
case '.':
Pattern[j++] = NOCARE;
r_pat[rp++] = '.';
break;
case '*':
Pattern[j++] = STAR;
r_pat[rp++] = '*';
break;
case '|':
Pattern[j++] = ORSYM;
r_pat[rp++] = '|';
break;
case ',':
Pattern[j++] = ORPAT;
RE_ERR = ON;
break;
case ';':
if(ANDON) RE_ERR = ON;
Pattern[j++] = ANDPAT;
ANDON = ON;
break;
case '-':
if(IN_RANGE) {
Pattern[j++] = HYPHEN;
r_pat[rp++] = '-';
}
else {
Pattern[j++] = temp[i];
r_pat[rp++] = temp[i];
}
break;
default:
if (temp[i]==NNLINE) {
Pattern[j++] = temp[i];
r_pat[rp++] = 'N';
}
else {
Pattern[j++] = temp[i];
r_pat[rp++] = temp[i];
}
break;
}
}
if(REGEX) { /* append ').' at end of regular expression */
r_pat[rp++] = ')';
r_pat[rp++] = '.';
Pattern[j++] = NOCARE;
TAIL = ON;
}
Pattern[j] = '\0';
m = j;
r_pat[rp] = '\0';
if(REGEX)
{
if(DELIMITER || WORDBOUND) {
fprintf(stderr, "%s: -d or -w option is not supported for this pattern\n", Progname);
free(r_pat);
if (!EXITONERROR) {
errno = AGREP_ERROR;
return -1;
}
else exit(2);
}
if(RE_ERR) {
fprintf(stderr, "%s: illegal regular expression\n", Progname);
free(r_pat);
if (!EXITONERROR) {
errno = AGREP_ERROR;
return -1;
}
else exit(2);
}
while ((*Pattern != NOCARE) && (m-- > 0)) Pattern++; /* point to . */
num_pos = init(r_pat, table);
if(num_pos <= 0) {
fprintf(stderr, "%s: illegal regular expression\n", Progname);
free(r_pat);
if (!EXITONERROR) {
errno = AGREP_ERROR;
return -1;
}
else exit(2);
}
if(num_pos > 30) {
fprintf(stderr, "%s: regular expression too long\n", Progname);
free(r_pat);
if (!EXITONERROR) {
errno = AGREP_ERROR;
return -1;
}
else exit(2);
}
strcpy(old_pat, Pattern); /* do real change to the Pattern to be returned */
free(r_pat);
return 0;
} /* if regex */
free(r_pat);
return 0;
}